# -*- coding: utf-8 -*-
'''
Control the state system on the minion
'''

# Import python libs
import os
import json
import copy
import shutil
import time
import logging
import tarfile
import datetime
import tempfile

# Import salt libs
import salt.config
import salt.utils
import salt.state
import salt.payload
from salt._compat import string_types
from salt.exceptions import SaltInvocationError


__proxyenabled__ = ['*']

__outputter__ = {
    'sls': 'highstate',
    'pkg': 'highstate',
    'top': 'highstate',
    'single': 'highstate',
    'highstate': 'highstate',
    'template': 'highstate',
    'template_str': 'highstate',
}

log = logging.getLogger(__name__)


def _filter_running(runnings):
    '''
    Filter out the result: True + no changes data
    '''
    ret = dict((tag, value) for tag, value in runnings.iteritems()
               if not value['result'] or value['changes'])
    return ret


def _set_retcode(ret):
    '''
    Set the return code based on the data back from the state system
    '''
    if isinstance(ret, list):
        __context__['retcode'] = 1
        return
    if not salt.utils.check_state_result(ret):
        __context__['retcode'] = 2


def _check_pillar(kwargs):
    '''
    Check the pillar for errors, refuse to run the state if there are errors
    in the pillar and return the pillar errors
    '''
    if kwargs.get('force'):
        return True
    if '_errors' in __pillar__:
        return False
    return True


def _wait(jid):
    '''
    Wait for all previously started state jobs to finish running
    '''
    if jid is None:
        jid = '{0:%Y%m%d%H%M%S%f}'.format(datetime.datetime.now())
    states = _prior_running_states(jid)
    while states:
        time.sleep(1)
        states = _prior_running_states(jid)


def running(concurrent=False):
    '''
    Return a dict of state return data if a state function is already running.
    This function is used to prevent multiple state calls from being run at
    the same time.

    CLI Example:

    .. code-block:: bash

        salt '*' state.running
    '''
    ret = []
    if concurrent:
        return ret
    active = __salt__['saltutil.is_running']('state.*')
    for data in active:
        err = (
            'The function "{0}" is running as PID {1} and was started at '
            '{2} with jid {3}'
        ).format(
            data['fun'],
            data['pid'],
            salt.utils.jid_to_time(data['jid']),
            data['jid'],
        )
        ret.append(err)
    return ret


def _prior_running_states(jid):
    '''
    Return a list of dicts of prior calls to state functions.  This function is
    used to queue state calls so only one is run at a time.
    '''

    ret = []
    active = __salt__['saltutil.is_running']('state.*')
    for data in active:
        if int(data['jid']) < int(jid):
            ret.append(data)
    return ret


def _check_queue(queue, kwargs):
    '''
    Utility function to queue the state run if requested
    and to check for conflicts in currently running states
    '''
    if queue:
        _wait(kwargs.get('__pub_jid'))
    else:
        conflict = running()
        if conflict:
            __context__['retcode'] = 1
            return conflict


def _get_opts(localconfig=None):
    '''
    Return a copy of the opts for use, optionally load a local config on top
    '''
    opts = copy.deepcopy(__opts__)
    if localconfig:
        opts = salt.config.minion_config(localconfig, defaults=opts)
    return opts


def low(data, queue=False, **kwargs):
    '''
    Execute a single low data call
    This function is mostly intended for testing the state system

    CLI Example:

    .. code-block:: bash

        salt '*' state.low '{"state": "pkg", "fun": "installed", "name": "vi"}'
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    st_ = salt.state.State(__opts__)
    err = st_.verify_data(data)
    if err:
        __context__['retcode'] = 1
        return err
    ret = st_.call(data)
    if isinstance(ret, list):
        __context__['retcode'] = 1
    if salt.utils.check_state_result(ret):
        __context__['retcode'] = 2
    return ret


def high(data, queue=False, **kwargs):
    '''
    Execute the compound calls stored in a single set of high data
    This function is mostly intended for testing the state system

    CLI Example:

    .. code-block:: bash

        salt '*' state.high '{"vim": {"pkg": ["installed"]}}'
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    st_ = salt.state.State(__opts__)
    ret = st_.call_high(data)
    _set_retcode(ret)
    return ret


def template(tem, queue=False, **kwargs):
    '''
    Execute the information stored in a template file on the minion.

    This function does not ask a master for a SLS file to render but
    instead directly processes the file at the provided path on the minion.

    CLI Example:

    .. code-block:: bash

        salt '*' state.template '<Path to template on the minion>'
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    st_ = salt.state.HighState(__opts__)
    if not tem.endswith('.sls'):
        tem = '{sls}.sls'.format(sls=tem)
    high_state, errors = st_.render_state(tem, None, '', None, local=True)
    if errors:
        __context__['retcode'] = 1
        return errors
    ret = st_.state.call_high(high_state)
    _set_retcode(ret)
    return ret


def template_str(tem, queue=False, **kwargs):
    '''
    Execute the information stored in a string from an sls template

    CLI Example:

    .. code-block:: bash

        salt '*' state.template_str '<Template String>'
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    st_ = salt.state.State(__opts__)
    ret = st_.call_template_str(tem)
    _set_retcode(ret)
    return ret


def highstate(test=None,
              queue=False,
              **kwargs):
    '''
    Retrieve the state data from the salt master for this minion and execute it

    test
        Notify states to execute in test-only (dry-run) mode.

        Sets the ``test`` variable in the minion ``opts`` for the duration of
        the state run.
    pillar
        Custom Pillar data can be passed with the ``pillar`` kwarg. Values
        passed here will override hard-coded Pillar values.
    queue : ``False``
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run so use this
        option sparingly.
    localconfig:
        Instead of using running minion opts, load ``localconfig`` and merge that
        with the running minion opts. This functionality is intended for using
        "roots" of salt directories (with their own minion config, pillars,
        file_roots) to run highstate out of.

    CLI Example:

    .. code-block:: bash

        salt '*' state.highstate

        salt '*' state.highstate whitelist=sls1_to_run,sls2_to_run
        salt '*' state.highstate exclude=sls_to_exclude
        salt '*' state.highstate exclude="[{'id': 'id_to_exclude'}, {'sls': 'sls_to_exclude'}]"

        salt '*' state.highstate pillar="{foo: 'Foo!', bar: 'Bar!'}"
    '''
    if _disabled(['highstate']):
        ret = {
            'name': 'Salt highstate run is disabled. To re-enable, run state.enable highstate',
            'result': 'False',
            'comment': 'Disabled'
        }
        return ret

    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    orig_test = __opts__.get('test', None)

    opts = _get_opts(kwargs.get('localconfig'))

    if test is None:
        if salt.utils.test_mode(test=test, **kwargs):
            opts['test'] = True
        else:
            opts['test'] = __opts__.get('test', None)
    else:
        opts['test'] = test

    if 'env' in kwargs:
        salt.utils.warn_until(
            'Boron',
            'Passing a salt environment should be done using \'saltenv\' '
            'not \'env\'. This functionality will be removed in Salt Boron.'
        )
        opts['environment'] = kwargs['env']
    elif 'saltenv' in kwargs:
        opts['environment'] = kwargs['saltenv']

    pillar = kwargs.get('pillar')
    if pillar is not None and not isinstance(pillar, dict):
        raise SaltInvocationError(
            'Pillar data must be formatted as a dictionary'
        )

    st_ = salt.state.HighState(opts, pillar, kwargs.get('__pub_jid'))
    st_.push_active()
    try:
        ret = st_.call_highstate(
                exclude=kwargs.get('exclude', []),
                cache=kwargs.get('cache', None),
                cache_name=kwargs.get('cache_name', 'highstate'),
                force=kwargs.get('force', False),
                whitelist=kwargs.get('whitelist')
                )
    finally:
        st_.pop_active()

    if __salt__['config.option']('state_data', '') == 'terse' or \
            kwargs.get('terse'):
        ret = _filter_running(ret)

    _set_retcode(ret)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    return ret


def sls(mods,
        saltenv='base',
        test=None,
        exclude=None,
        queue=False,
        env=None,
        **kwargs):
    '''
    Execute a set list of state modules from an environment.

    test
        Notify states to execute in test-only (dry-run) mode.

        Sets the ``test`` variable in the minion ``opts`` for the duration of
        the state run.
    pillar
        Custom Pillar data can be passed with the ``pillar`` kwarg. Values
        passed here will override hard-coded Pillar values.
    queue : ``False``
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run so use this
        option sparingly.
    saltenv : base
        Specify a ``file_roots`` environment.

        .. versionchanged:: 0.17.0
            Argument name changed from ``env`` to ``saltenv``.
    concurrent:
        WARNING: This flag is potentially dangerous. It is designed
        for use when multiple state runs can safely be run at the same
        Do not use this flag for performance optimization.
    localconfig:
        Instead of using running minion opts, load ``localconfig`` and merge that
        with the running minion opts. This functionality is intended for using
        "roots" of salt directories (with their own minion config, pillars,
        file_roots) to run highstate out of.

    CLI Example:

    .. code-block:: bash

        salt '*' state.sls core,edit.vim dev
        salt '*' state.sls core exclude="[{'id': 'id_to_exclude'}, {'sls': 'sls_to_exclude'}]"

        salt '*' state.sls myslsfile pillar="{foo: 'Foo!', bar: 'Bar!'}"
    '''
    concurrent = kwargs.get('concurrent', False)
    if env is not None:
        salt.utils.warn_until(
            'Boron',
            'Passing a salt environment should be done using \'saltenv\' '
            'not \'env\'. This functionality will be removed in Salt Boron.'
        )
        # Backwards compatibility
        saltenv = env

    if queue:
        _wait(kwargs.get('__pub_jid'))
    else:
        conflict = running(concurrent)
        if conflict:
            __context__['retcode'] = 1
            return conflict

    if isinstance(mods, list):
        disabled = _disabled(mods)
    else:
        disabled = _disabled([mods])

    if disabled:
        __context__['retcode'] = 1
        return disabled

    if not _check_pillar(kwargs):
        __context__['retcode'] = 5
        err = ['Pillar failed to render with the following messages:']
        err += __pillar__['_errors']
        return err
    orig_test = __opts__.get('test', None)
    opts = _get_opts(kwargs.get('localconfig'))

    if salt.utils.test_mode(test=test, **kwargs):
        opts['test'] = True
    elif test is not None:
        opts['test'] = test
    else:
        opts['test'] = __opts__.get('test', None)

    pillar = kwargs.get('pillar')
    if pillar is not None and not isinstance(pillar, dict):
        raise SaltInvocationError(
            'Pillar data must be formatted as a dictionary'
        )

    serial = salt.payload.Serial(__opts__)
    cfn = os.path.join(
            __opts__['cachedir'],
            '{0}.cache.p'.format(kwargs.get('cache_name', 'highstate'))
            )

    st_ = salt.state.HighState(opts, pillar, kwargs.get('__pub_jid'))

    if kwargs.get('cache'):
        if os.path.isfile(cfn):
            with salt.utils.fopen(cfn, 'rb') as fp_:
                high_ = serial.load(fp_)
                return st_.state.call_high(high_)

    if isinstance(mods, string_types):
        mods = mods.split(',')

    st_.push_active()
    try:
        high_, errors = st_.render_highstate({saltenv: mods})
        lowstate_ = show_lowstate()
        lows_ = []
        for item in lowstate_:
            lows_.append('{0}.{1}'.format(item['state'], item['fun']))

        disabled = _disabled(lows_)
        if disabled:
            __context__['retcode'] = 1
            return disabled

        if errors:
            __context__['retcode'] = 1
            return errors

        if exclude:
            if isinstance(exclude, str):
                exclude = exclude.split(',')
            if '__exclude__' in high_:
                high_['__exclude__'].extend(exclude)
            else:
                high_['__exclude__'] = exclude
        ret = st_.state.call_high(high_)
    finally:
        st_.pop_active()
    if __salt__['config.option']('state_data', '') == 'terse' or kwargs.get('terse'):
        ret = _filter_running(ret)
    cache_file = os.path.join(__opts__['cachedir'], 'sls.p')
    cumask = os.umask(077)
    try:
        if salt.utils.is_windows():
            # Make sure cache file isn't read-only
            __salt__['cmd.run']('attrib -R "{0}"'.format(cache_file))
        with salt.utils.fopen(cache_file, 'w+b') as fp_:
            serial.dump(ret, fp_)
    except (IOError, OSError):
        msg = 'Unable to write to SLS cache file {0}. Check permission.'
        log.error(msg.format(cache_file))

    os.umask(cumask)
    _set_retcode(ret)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    try:
        with salt.utils.fopen(cfn, 'w+b') as fp_:
            try:
                serial.dump(high_, fp_)
            except TypeError:
                # Can't serialize pydsl
                pass
    except (IOError, OSError):
        msg = 'Unable to write to highstate cache file {0}. Do you have permissions?'
        log.error(msg.format(cfn))
    return ret


def top(topfn,
        test=None,
        queue=False,
        **kwargs):
    '''
    Execute a specific top file instead of the default

    CLI Example:

    .. code-block:: bash

        salt '*' state.top reverse_top.sls
        salt '*' state.top reverse_top.sls exclude=sls_to_exclude
        salt '*' state.top reverse_top.sls exclude="[{'id': 'id_to_exclude'}, {'sls': 'sls_to_exclude'}]"
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    if not _check_pillar(kwargs):
        __context__['retcode'] = 5
        err = ['Pillar failed to render with the following messages:']
        err += __pillar__['_errors']
        return err
    orig_test = __opts__.get('test', None)
    opts = _get_opts(kwargs.get('localconfig'))
    if salt.utils.test_mode(test=test, **kwargs):
        opts['test'] = True
    else:
        opts['test'] = __opts__.get('test', None)

    pillar = kwargs.get('pillar')
    if pillar is not None and not isinstance(pillar, dict):
        raise SaltInvocationError(
            'Pillar data must be formatted as a dictionary'
        )

    st_ = salt.state.HighState(opts, pillar)
    st_.push_active()
    st_.opts['state_top'] = os.path.join('salt://', topfn)
    try:
        ret = st_.call_highstate(
                exclude=kwargs.get('exclude', []),
                cache=kwargs.get('cache', None),
                cache_name=kwargs.get('cache_name', 'highstate')
                )
    finally:
        st_.pop_active()
    _set_retcode(ret)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    return ret


def show_highstate(queue=False, **kwargs):
    '''
    Retrieve the highstate data from the salt master and display it

    Custom Pillar data can be passed with the ``pillar`` kwarg.

    CLI Example:

    .. code-block:: bash

        salt '*' state.show_highstate
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    pillar = kwargs.get('pillar')
    if pillar is not None and not isinstance(pillar, dict):
        raise SaltInvocationError(
            'Pillar data must be formatted as a dictionary'
        )

    st_ = salt.state.HighState(__opts__, pillar)
    st_.push_active()
    try:
        ret = st_.compile_highstate()
    finally:
        st_.pop_active()
    if isinstance(ret, list):
        __context__['retcode'] = 1
    return ret


def show_lowstate(queue=False, **kwargs):
    '''
    List out the low data that will be applied to this minion

    CLI Example:

    .. code-block:: bash

        salt '*' state.show_lowstate
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        assert False
        return conflict
    st_ = salt.state.HighState(__opts__)
    st_.push_active()
    try:
        ret = st_.compile_low_chunks()
    finally:
        st_.pop_active()
    return ret


def sls_id(
        id_,
        mods,
        saltenv,
        test=None,
        queue=False,
        **kwargs):
    '''
    Call a single ID from the named module(s) and handle all requisites

    .. versionadded:: 2014.7.0

    CLI Example:

    .. code-block:: bash

        salt '*' state.sls_id apache http
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    orig_test = __opts__.get('test', None)
    opts = _get_opts(kwargs.get('localconfig'))
    if salt.utils.test_mode(test=test, **kwargs):
        opts['test'] = True
    else:
        opts['test'] = __opts__.get('test', None)
    st_ = salt.state.HighState(opts)
    if isinstance(mods, string_types):
        mods = mods.split(',')
    st_.push_active()
    try:
        high_, errors = st_.render_highstate({saltenv: mods})
    finally:
        st_.pop_active()
    errors += st_.state.verify_high(high_)
    if errors:
        __context__['retcode'] = 1
        return errors
    chunks = st_.state.compile_high_data(high_)
    for chunk in chunks:
        if chunk.get('__id__', '') == id_:
            ret = st_.state.call_chunk(chunk, {}, chunks)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    return ret


def show_low_sls(mods,
                 saltenv='base',
                 test=None,
                 queue=False,
                 env=None,
                 **kwargs):
    '''
    Display the low data from a specific sls. The default environment is
    ``base``, use ``saltenv`` (``env`` in Salt 0.17.x and older) to specify a
    different environment.

    CLI Example:

    .. code-block:: bash

        salt '*' state.show_low_sls foo
    '''
    if env is not None:
        salt.utils.warn_until(
            'Boron',
            'Passing a salt environment should be done using \'saltenv\' '
            'not \'env\'. This functionality will be removed in Salt Boron.'
        )
        # Backwards compatibility
        saltenv = env
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    orig_test = __opts__.get('test', None)
    opts = _get_opts(kwargs.get('localconfig'))
    if salt.utils.test_mode(test=test, **kwargs):
        opts['test'] = True
    else:
        opts['test'] = __opts__.get('test', None)
    st_ = salt.state.HighState(opts)
    if isinstance(mods, string_types):
        mods = mods.split(',')
    st_.push_active()
    try:
        high_, errors = st_.render_highstate({saltenv: mods})
    finally:
        st_.pop_active()
    errors += st_.state.verify_high(high_)
    if errors:
        __context__['retcode'] = 1
        return errors
    ret = st_.state.compile_high_data(high_)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    return ret


def show_sls(mods, saltenv='base', test=None, queue=False, env=None, **kwargs):
    '''
    Display the state data from a specific sls or list of sls files on the
    master. The default environment is ``base``, use ``saltenv`` (``env`` in
    Salt 0.17.x and older) to specify a different environment.

    This function does not support topfiles.  For ``top.sls`` please use
    ``show_top`` instead.

    Custom Pillar data can be passed with the ``pillar`` kwarg.

    CLI Example:

    .. code-block:: bash

        salt '*' state.show_sls core,edit.vim dev
    '''
    if env is not None:
        salt.utils.warn_until(
            'Boron',
            'Passing a salt environment should be done using \'saltenv\' '
            'not \'env\'. This functionality will be removed in Salt Boron.'
        )
        # Backwards compatibility
        saltenv = env
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    orig_test = __opts__.get('test', None)
    opts = _get_opts(kwargs.get('localconfig'))

    if salt.utils.test_mode(test=test, **kwargs):
        opts['test'] = True
    else:
        opts['test'] = __opts__.get('test', None)

    pillar = kwargs.get('pillar')
    if pillar is not None and not isinstance(pillar, dict):
        raise SaltInvocationError(
            'Pillar data must be formatted as a dictionary'
        )

    st_ = salt.state.HighState(opts, pillar)
    if isinstance(mods, string_types):
        mods = mods.split(',')
    st_.push_active()
    try:
        high_, errors = st_.render_highstate({saltenv: mods})
    finally:
        st_.pop_active()
    errors += st_.state.verify_high(high_)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    if errors:
        __context__['retcode'] = 1
        return errors
    return high_


def show_top(queue=False, **kwargs):
    '''
    Return the top data that the minion will use for a highstate

    CLI Example:

    .. code-block:: bash

        salt '*' state.show_top
    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    st_ = salt.state.HighState(__opts__)
    errors = []
    top_ = st_.get_top()
    errors += st_.verify_tops(top_)
    if errors:
        __context__['retcode'] = 1
        return errors
    matches = st_.top_matches(top_)
    return matches


def single(fun, name, test=None, queue=False, **kwargs):
    '''
    Execute a single state function with the named kwargs, returns False if
    insufficient data is sent to the command

    By default, the values of the kwargs will be parsed as YAML. So, you can
    specify lists values, or lists of single entry key-value maps, as you
    would in a YAML salt file. Alternatively, JSON format of keyword values
    is also supported.

    CLI Example:

    .. code-block:: bash

        salt '*' state.single pkg.installed name=vim

    '''
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict
    comps = fun.split('.')
    if len(comps) < 2:
        __context__['retcode'] = 1
        return 'Invalid function passed'
    kwargs.update({'state': comps[0],
                   'fun': comps[1],
                   '__id__': name,
                   'name': name})
    orig_test = __opts__.get('test', None)
    opts = _get_opts(kwargs.get('localconfig'))
    if salt.utils.test_mode(test=test, **kwargs):
        opts['test'] = True
    else:
        opts['test'] = __opts__.get('test', None)

    pillar = kwargs.get('pillar')
    if pillar is not None and not isinstance(pillar, dict):
        raise SaltInvocationError(
            'Pillar data must be formatted as a dictionary'
        )

    st_ = salt.state.State(opts, pillar)
    err = st_.verify_data(kwargs)
    if err:
        __context__['retcode'] = 1
        return err

    st_._mod_init(kwargs)
    ret = {'{0[state]}_|-{0[__id__]}_|-{0[name]}_|-{0[fun]}'.format(kwargs):
            st_.call(kwargs)}
    _set_retcode(ret)
    # Work around Windows multiprocessing bug, set __opts__['test'] back to
    # value from before this function was run.
    __opts__['test'] = orig_test
    return ret


def clear_cache():
    '''
    Clear out cached state files, forcing even cache runs to refresh the cache
    on the next state execution.

    Remember that the state cache is completely disabled by default, this
    execution only applies if cache=True is used in states

    CLI Example:

    .. code-block:: bash

        salt '*' state.clear_cache
    '''
    ret = []
    for fn_ in os.listdir(__opts__['cachedir']):
        if fn_.endswith('.cache.p'):
            path = os.path.join(__opts__['cachedir'], fn_)
            if not os.path.isfile(path):
                continue
            os.remove(path)
            ret.append(fn_)
    return ret


def pkg(pkg_path, pkg_sum, hash_type, test=False, **kwargs):
    '''
    Execute a packaged state run, the packaged state run will exist in a
    tarball available locally. This packaged state
    can be generated using salt-ssh.

    CLI Example:

    .. code-block:: bash

        salt '*' state.pkg /tmp/state_pkg.tgz
    '''
    # TODO - Add ability to download from salt master or other source
    if not os.path.isfile(pkg_path):
        return {}
    if not salt.utils.get_hash(pkg_path, hash_type) == pkg_sum:
        return {}
    root = tempfile.mkdtemp()
    s_pkg = tarfile.open(pkg_path, 'r:gz')
    # Verify that the tarball does not extract outside of the intended root
    members = s_pkg.getmembers()
    for member in members:
        if member.path.startswith((os.sep, '..{0}'.format(os.sep))):
            return {}
        elif '..{0}'.format(os.sep) in member.path:
            return {}
    s_pkg.extractall(root)
    s_pkg.close()
    lowstate_json = os.path.join(root, 'lowstate.json')
    with salt.utils.fopen(lowstate_json, 'r') as fp_:
        lowstate = json.load(fp_, object_hook=salt.utils.decode_dict)
    pillar_json = os.path.join(root, 'pillar.json')
    if os.path.isfile(pillar_json):
        with salt.utils.fopen(pillar_json, 'r') as fp_:
            pillar = json.load(fp_)
    else:
        pillar = None
    popts = _get_opts(kwargs.get('localconfig'))
    popts['fileclient'] = 'local'
    popts['file_roots'] = {}
    if salt.utils.test_mode(test=test, **kwargs):
        popts['test'] = True
    else:
        popts['test'] = __opts__.get('test', None)
    envs = os.listdir(root)
    for fn_ in envs:
        full = os.path.join(root, fn_)
        if not os.path.isdir(full):
            continue
        popts['file_roots'][fn_] = [full]
    st_ = salt.state.State(popts, pillar=pillar)
    st_.functions['saltutil.sync_all'](envs)
    st_.module_refresh()
    ret = st_.call_chunks(lowstate)
    try:
        shutil.rmtree(root)
    except (IOError, OSError):
        pass
    return ret


def disable(states):
    '''
    Disable state runs.

    CLI Example:

    .. code-block:: bash

        salt '*' state.disable highstate

        salt '*' state.disable highstate,test.succeed_without_changes

    .. note::
        To disable a state file from running provide the same name that would
        be passed in a state.sls call.

        salt '*' state.disable bind.config

    '''
    ret = {
        'res': True,
        'msg': ''
    }

    if isinstance(states, string_types):
        states = states.split(',')

    msg = []
    _disabled = __salt__['grains.get']('state_runs_disabled')
    if not isinstance(_disabled, list):
        _disabled = []

    _changed = False
    for _state in states:
        if _state in _disabled:
            msg.append('Info: {0} state already disabled.'.format(_state))
        else:
            msg.append('Info: {0} state disabled.'.format(_state))
            _disabled.append(_state)
            _changed = True

    if _changed:
        __salt__['grains.setval']('state_runs_disabled', _disabled)

    ret['msg'] = '\n'.join(msg)

    # refresh the grains
    __salt__['saltutil.refresh_modules']()

    return ret


def enable(states):
    '''
    Enable state function or sls run

    CLI Example:

    .. code-block:: bash

        salt '*' state.enable highstate

        salt '*' state.enable test.succeed_without_changes

    .. note::
        To enable a state file from running provide the same name that would
        be passed in a state.sls call.

        salt '*' state.disable bind.config

    '''
    ret = {
        'res': True,
        'msg': ''
    }

    if isinstance(states, string_types):
        states = states.split(',')
    log.debug("states {0}".format(states))

    msg = []
    _disabled = __salt__['grains.get']('state_runs_disabled')
    if not isinstance(_disabled, list):
        _disabled = []

    _changed = False
    for _state in states:
        log.debug("_state {0}".format(_state))
        if _state not in _disabled:
            msg.append('Info: {0} state already enabled.'.format(_state))
        else:
            msg.append('Info: {0} state enabled.'.format(_state))
            _disabled.remove(_state)
            _changed = True

    if _changed:
        __salt__['grains.setval']('state_runs_disabled', _disabled)

    ret['msg'] = '\n'.join(msg)

    # refresh the grains
    __salt__['saltutil.refresh_modules']()

    return ret


def list_disabled():
    '''
    List the states which are currently disabled

    CLI Example:

    .. code-block:: bash

        salt '*' state.list_disabled
    '''
    return __salt__['grains.get']('state_runs_disabled')


def _disabled(funs):
    '''
    Return messages for disabled states
    that match state functions in funs.
    '''
    ret = []
    _disabled = __salt__['grains.get']('state_runs_disabled')
    for state in funs:
        for _state in _disabled:
            if '.*' in _state:
                target_state = _state.split('.')[0]
                target_state = target_state + '.' if not target_state.endswith('.') else target_state
                if state.startswith(target_state):
                    err = (
                        'The state or state function "{0}" is currently disabled by "{1}", '
                        'to re-enable, run state.enable {1}.'
                    ).format(
                        state,
                        _state,
                    )
                    ret.append(err)
                    continue
            else:
                log.debug('state {0} _state {1}'.format(state, _state))
                if _state == state:
                    err = (
                        'The state or state function "{0}" is currently disabled, '
                        'to re-enable, run state.enable {0}.'
                    ).format(
                        _state,
                    )
                    ret.append(err)
                    continue
    return ret
